JP6310976B2 - Rotating electric machine stator - Google Patents

Description

  The present invention relates to a stator for a rotating electrical machine.

  In recent years, rotating electric machines using segment coils have been proposed as stators for rotating electric machines. For example, a stator of a rotating electrical machine described in Patent Document 1 is a base plate in which a stator core assembly in which a slot coil is inserted into a slot of a stator core and a connection coil that connects slot coils in the same phase of the stator core are accommodated in the base plate. And an assembly. The connection coil is joined to the slot coil of the same phase inserted in the slot of the stator core, and the inner connection coil and the outer connection coil constituting the connection coil are joined by pins.

  In the stator of the rotating electrical machine described in Patent Document 1, since the inner connection coil and the outer connection coil are configured separately, a step of joining the inner connection coil, the outer connection coil, and the pin is necessary.

  On the other hand, in the stator of the rotating electrical machine described in Patent Document 2, the inner connection coil and the outer connection coil that constitute the connection coil are formed by pressing one plate-like conductor, etc., and are evenly arranged in the circumferential direction. Thereafter, it is described that the base plate and the connection coil are integrally formed by a resin mold.

JP 2013-27174 A International Publication No. 2015/151615

  However, in the stator of the rotating electrical machine described in Patent Document 2, since the annular base plate is molded together with the connection coil, a large-scale manufacturing facility is required, and a relatively large base plate is maintained at a time while maintaining the positional accuracy of the connection coil. It was difficult to manufacture.

  An object of the present invention is to provide a stator of a rotating electrical machine that can be easily assembled without requiring a large-scale manufacturing facility.

In order to achieve the above object, the invention described in claim 1
A stator core having a plurality of slots (for example, a slot 21 in an embodiment described later) (for example, a stator core 20 in an embodiment described later);
A stator (for example, a stator 10 in an embodiment described later) of a rotating electrical machine comprising a coil (for example, a coil 90 in an embodiment described later) attached to the stator core,
The coil includes a plurality of slot coils (for example, a first coil bar 34 and a second coil bar 54 in an embodiment described later) inserted in the slot, and the slot coil on the axially outer side than the axial end surface of the stator core. A plurality of connection coils (for example, a first outer connection coil 37, a first inner connection coil 38, a second outer connection coil 57, and a second inner connection coil 58 in the embodiments described later). ,
The connection coil includes an inner connection coil (for example, a first inner connection coil 38 and a second inner connection coil 58 in an embodiment described later) and an outer connection coil ( For example, it has a first outer connecting coil 37, a second outer connecting coil 57) in the embodiment described later,
At least on one axial end side of the stator core, a base plate assembly (for example, a right inner base plate assembly 30, a right outer base plate assembly 50, a left inner base plate assembly 70, and a left outer base plate assembly 80 in the embodiments described later). )
The base plate assembly is
The inner connection coil and the outer connection coil are divided into first divided plates (for example, a first right inner divided plate 36, a first right outer divided plate 56, a first left inner divided plate 75, and a first left in an embodiment described later). A plurality of first coil units (for example, first in the embodiments described later) that are integrated with the outer divided plate 85 and are arranged in the circumferential direction so that the adjacent first divided plates overlap in the axial direction. Right inner coil unit 35, first right outer coil unit 55, first left inner coil unit 71, first left outer coil unit 81),
A second divided plate (for example, a first divided plate in an embodiment described later) provided between at least one adjacent first coil units, and the inner connection coil extending on a plane on which the inner connection coil is disposed. A second coil unit (for example, a first coil in an embodiment described later) integrated with the two right inner divided plates 42, the second right outer divided plate 62, the second left inner divided plate 76, and the second left outer divided plate 86). 2 right inner coil unit 41, second right outer coil unit 61, second left inner coil unit 72, second left outer coil unit 82),
A third divided plate (for example, a first divided plate in an embodiment described later) provided between at least one adjacent first coil units, and the outer connection coil extending on a plane on which the outer connection coil is disposed. A third coil unit integrated with the three right inner dividing plates 46, the third right outer dividing plate 66, the third left inner dividing plate 77, and the third left outer dividing plate 87 (for example, in the embodiment described later). 3 right inner coil unit 45, third right outer coil unit 65, third left inner coil unit 73, third left outer coil unit 83).

The invention according to claim 2 is the invention according to claim 1,
A shape obtained by combining the second divided plate and the third divided plate is substantially the same shape as the first divided plate.

In the invention according to claim 3, in the invention according to claim 1 or 2,
The base plate assembly is provided on both axial sides of the stator core.

In the invention according to claim 4, in the invention according to claim 3,
The slot coil is integrated with the first to third coil units of the base plate assembly provided on the other axial end side of the stator core.

Moreover, in invention of Claim 5, in invention of any one of Claims 1-4,
The first divided plate has outer grooves (for example, coil grooves 36d, 56d, 75d, and 85d in the embodiments described later) formed on the inner surface so that the outer connection coil is exposed on the outer surface. Inner grooves (for example, coil grooves 36c, 56c, 75c, 85c in the embodiments described later) are formed so that the inner connection coil is exposed,
Inner grooves (for example, coil grooves 36c, 56c, 75c, 85c in the embodiments described later) are formed on the inner surface of the second divided plate so that the inner connection coil is exposed,
The third divided plate is formed with outer grooves (for example, coil grooves 36d, 56d, 75d, and 85d in the embodiments described later) so that the outer connection coil is exposed on the outer surface.

  According to the first aspect of the present invention, since the base plate assembly is composed of the plurality of first coil units, the second coil unit, and the third coil unit, the base plate is molded at once as in the prior art. Compared to the case, it can be easily manufactured without requiring a large-scale manufacturing facility.

  Further, if the plurality of first coil units are simply arranged in the circumferential direction, when the last first coil unit is arranged, it interferes with the first coil unit arranged first, and the last first coil unit is assembled. Although it cannot be attached, the second coil unit extended on the plane on which the inner connection coil is arranged is arranged before the first coil unit, and finally on the plane on which the outer connection coil is arranged. By arranging the third coil unit, the base plate assembly can be easily assembled.

  According to the second aspect of the present invention, if the third coil unit is placed on the previously assembled second coil unit, the same shape as the first coil unit is obtained, so that the base plate assembly is well organized. .

  According to the third aspect of the present invention, by providing the base plate assemblies on both sides in the axial direction of the stator core, it is possible to easily manufacture the stator of the rotating electrical machine while sharing the components.

  According to the fourth aspect of the present invention, since the slot coil is integrated with the first to third coil units provided on the other axial end side of the stator core, after the connection coil and the slot coil are assembled, The connection process is not necessary, and the stator of the rotating electrical machine can be easily manufactured.

  According to the invention described in claim 5, since the outer connection coil and the inner connection coil are exposed in the outer groove portion and the inner groove portion, respectively, the connection coil can be efficiently cooled.

It is a right side perspective view of a stator of a rotating electrical machine according to an embodiment of the present invention. FIG. 2 is a left side perspective view of a stator of the rotating electrical machine of FIG. 1. It is a perspective view which shows the state which attaches a right inner side baseplate assembly to a stator core. It is a perspective view of a 1st right inside coil assembly provided with the 1st right inside coil unit and the 1st coil bar. It is a perspective view of the 2nd right inside coil assembly provided with the 2nd right inside coil unit and the 1st inside diameter side coil bar. It is a perspective view of the 3rd right inside coil assembly provided with the 3rd right inside coil unit and the 1st outside diameter side coil bar. It is a perspective view which shows the state which attaches a right outer side baseplate assembly to the stator core with which the right inner side baseplate assembly was assembled | attached. It is a perspective view of a 1st right outside coil assembly provided with the 1st right outside coil unit and the 2nd coil bar. It is a perspective view of the 2nd right outside coil assembly provided with the 2nd right outside coil unit and the 2nd inside diameter side coil bar. It is a perspective view of the 3rd right outside coil assembly provided with the 3rd right outside coil unit and the 2nd outside diameter side coil bar. It is a perspective view which shows the state which attaches a left inner side baseplate assembly to a stator core. It is a perspective view of a 1st left inner side coil unit. It is a perspective view of a 2nd left inner side coil unit. It is a perspective view of a 3rd left inner side coil unit. It is a perspective view of a 4th left inner side coil unit. It is a perspective view which shows the state which attaches a left outer side baseplate assembly to the stator core with which the left inner baseplate assembly was assembled | attached. It is a perspective view of a 1st left outer side coil unit. It is a perspective view of a 2nd left outside coil unit. It is a perspective view of a 3rd left outside coil unit. It is a perspective view of a 4th left outside coil unit. It is the partial side view which looked at the right inner side baseplate assembly and the left inner side baseplate assembly from the axial direction outer side. It is the partial side view which looked at the right outer side baseplate assembly and the left outer side baseplate assembly from the axial direction outer side. It is a right side perspective view of a stator core to which a right inner base plate assembly and a right outer base plate assembly are assembled. FIG. 14 is a left side perspective view of the stator core of FIG. 13. It is principal part sectional drawing of the stator shown in FIG. It is a perspective view of the principal part cross section of FIG.

  Hereinafter, a stator of a rotating electrical machine according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The drawings are viewed in the direction of the reference numerals.

<1. Stator>
As shown in FIGS. 1 and 2, the stator 10 of the rotating electrical machine according to the present embodiment is a double-slot type stator having 6 pole pairs and 8 turns, and includes a stator core 20, a right inner base plate assembly 30 and a right outer. The base plate assembly 50 includes a left inner base plate assembly 70 and a left outer base plate assembly 80. Specifically, the right inner base plate assembly 30 is arranged on the right side in the axial direction of the stator core 20, and the right outer base plate assembly 50 is stacked on the right side in the axial direction of the right inner base plate assembly 30. The left inner base plate assembly 70 is arranged on the left side in the axial direction of the stator core 20, and the left outer base plate assembly 80 is stacked on the left side in the axial direction of the left inner base plate assembly 70.

<2. Stator core>
As shown in FIG. 3, the stator core 20 is configured, for example, by laminating a plurality of stamped silicon steel plates, and on the radially inner side thereof, between 72 teeth 22 and adjacent teeth 22, 22. 72 slots 21 to be formed. The slot 21 penetrates the stator core 20 in the axial direction, is formed in a substantially oval shape that is long in the radial direction of the stator core 20 when viewed from the axial direction, and 72 openings 23 open to the inner peripheral surface of the stator core 20. Yes.

  Referring also to FIG. 15 and FIG. 16, the slot 21 is configured so that a first outer diameter side coil bar 34o, a first inner diameter side coil bar 34i, a second outer diameter side coil bar 54o, and a second inner diameter side coil bar 54i, which will be described later, It is formed in a substantially oval shape that can be inserted in this order from the outside.

<3. Right inner base plate assembly>
The right inner base plate assembly 30 includes eleven first right inner coil assemblies 31, one second right inner coil assembly 32, and one third right inner coil assembly 33. The stator core 20 is arranged in an annular shape on the right side in the axial direction.

<3-1. First Right Inner Coil Assembly>
The first right inner coil assembly 31 includes a first coil bar 34 and a first right inner coil unit 35, as shown in FIG. 4A.

  Each of the first coil bars 34 includes a plurality of (six in the illustrated embodiment) first outer diameter side coil bars 34o and first inner diameter side coil bars 34i. The length of the first outer-diameter side coil bar 34o is also determined with reference to FIGS. 15 and 16 as to the first outer connecting coil 37 and the left inner base plate that penetrate the stator core 20 and are arranged outside the right inner base plate assembly 30. The length is set to connect between the first outer connecting coils 37 arranged outside the assembly 70. The length of the first inner diameter side coil bar 34 i extends through the stator core 20, and the first inner connection coil 38 disposed inside the right inner base plate assembly 30 and the first inner coil disposed inside the left inner base plate assembly 70. The length connecting the inner connection coils 38 is set. The first outer diameter side coil bar 34o and the first inner diameter side coil bar 34i are insulated by being coated with an insulating material such as a resin whose periphery except for both ends is injection-molded.

  The first right inner coil unit 35 includes a first right inner dividing plate 36, a plurality of (six in the embodiment shown in the drawing) first outer connecting coils 37, and a plurality of (six in the embodiment shown in the drawing). A first inner connection coil 38.

  The first right inner divided plate 36 includes an inner plate portion 36a formed in a substantially parallelogram-like plate shape that is tilted counterclockwise, and an outer plate that is formed in a substantially parallelogram-like plate shape that is turned clockwise. Part 36b, and a part of the inner side plate part 36a and a part of the outer side plate part 36b are overlapped and formed integrally. Specifically, a substantially triangular region surrounded by A, B, and C of the inner plate portion 36a shown in FIG. 4A and a substantially triangular region surrounded by A ′, B ′, and C ′ of the outer plate portion 36b. These regions are integrally formed in a state where they are overlapped with each other.

  Therefore, in the region excluding the overlapping portion of the inner plate portion 36a and the outer plate portion 36b, a space corresponding to the plate thickness of the inner plate portion 36a is formed on the inner surface side (lower surface side in the drawing) of the outer plate portion 36b. A space corresponding to the plate thickness of the outer plate 36b is formed on the outer surface side of the inner plate 36a.

  On the inner surface side (lower surface in the drawing) of the inner plate portion 36a, a plurality (six) of substantially U-shaped coil grooves 36c that open to the inner surface are counterclockwise when viewed from the outside in the axial direction. It is formed in close proximity along an involute curve that extends. In addition, on the outer surface side (upper surface in the drawing) of the outer plate portion 36b, a plurality (six) of substantially U-shaped coil grooves 36d opened on the outer surface are defined as coil grooves 36c as viewed from the outside in the axial direction. They are formed close to each other along an involute curve extending in the reverse direction (clockwise). That is, the coil groove 36c and the coil groove 36d are formed so as to intersect with each other at different planes in the axial direction position.

  A first inner connecting coil 38 is inserted into the coil groove 36c, and a first outer connecting coil 37 is inserted into the coil groove 36d. In other words, the inner plate part 36a extends on the plane on which the first inner connection coil 38 is arranged, and the outer plate part 36b extends on the plane on which the first outer connection coil 37 is arranged. Referring to FIG. 11, when the right inner base plate assembly 30 is assembled in an annular shape on the right side in the axial direction of the stator core 20, the outer diameter end 37 o of the first outer connecting coil 37 and the first inner connecting coil 38. The outer diameter end 38o is arranged on the same circumference centering on the center O of the right inner base plate assembly 30 (stator core 20).

  Each of the first inner connecting coils 38 is an extension of a straight line L connecting the inner diameter end 38i and the third other inner diameter end 38i counterclockwise from the inner diameter end 38i and the center O of the right inner base plate assembly 30. It extends to the outer diameter end 38o located on the line. The first outer connecting coil 37 is an extension line of a straight line L that connects the inner diameter end 37i and the other third inner diameter end 37i clockwise from the inner diameter end 37i and the center O of the right inner base plate assembly 30. It extends to the outer diameter end 37o located at the position. That is, the inner diameter end 38i of the first inner connection coil 38 and the inner diameter end 37i of the first outer connection coil 37 that are separated from each other by six in the circumferential direction are respectively the third outer diameter end 38o and the counterclockwise direction and the clockwise direction. The first right inner divided plate 36 is electrically connected via the outer diameter end 37o.

  The length in the radial direction of the first inner connection coil 38 is set longer than the length in the radial direction of the first outer connection coil 37, and the inner diameter end 38 i of the first inner connection coil 38 is the inner diameter of the first outer connection coil 37. Extending radially inward from the end 37i. In connection with this, the inner side plate part 36a is also extended in the inner diameter side rather than the outer side plate part 36b. Referring also to FIGS. 15 and 16, one end of the first inner diameter side coil bar 34 i is connected to the inner diameter end 38 i of each first inner connection coil 38. Further, one end of the first outer diameter side coil bar 34 o is connected to the inner diameter end 37 i of the first outer connecting coil 37.

  The first outer connecting coil 37 and the first inner connecting coil except that the outer diameter end 38o of the predetermined first inner connecting coil 38 and the outer diameter end 37o of the first outer connecting coil 37 are electrically connected. 38, the first outer connecting coils 37, and the first inner connecting coils 38 are isolated and insulated by the partition wall 36e of the first right inner dividing plate 36. Furthermore, a plurality (five in the figure) of through holes 36f are formed in the inner plate portion 36a on the outer diameter side of the first inner diameter side coil bar 34i (inner diameter end 38i).

  The through hole 36f is a hole for inserting the first outer diameter side coil bar 34o of the adjacent first right inner coil assembly 31, and is insulated from the first inner connection coil 38 by the partition wall 36e. In other words, the first inner connecting coil 38 is bent to avoid the first outer diameter side coil bar 34o (the inner diameter end 37i of the first outer connecting coil 37) (see FIG. 11). The notch portion 36g formed at the end of the inner plate portion 36a has a first adjacent first right inner divided plate 36 and an adjacent first right inner divided plate 36 in an annular shape. Another through hole (36f) is formed in cooperation with the right inner dividing plate 36.

<3-2. Second Right Inner Coil Assembly>
As shown in FIG. 4B, the second right inner coil assembly 32 includes an outer plate portion 36b, a first outer connection coil 37, and a first outer diameter side coil bar from the first right inner coil assembly 31 (see FIG. 4A). The shape 34o is deleted. Specifically, the second right inner coil assembly 32 includes a second right inner coil unit 41 having the same shape as the inner plate portion 36a, and a first inner diameter side coil bar 34i. The second right inner coil unit 41 includes a second right inner divided plate 42 and a first inner connecting coil 38 inserted in a coil groove 36c formed on the inner surface side (lower surface in the drawing) of the second right inner divided plate 42. With. In other words, the second right inner dividing plate 42 extends on a plane on which the first inner connecting coil 38 is disposed. The inner diameter end 38i of the first inner connection coil 38 is connected to one end of the first inner diameter side coil bar 34i.

  The second right inner divided plate 42 is formed with a plurality of (five in the figure) through holes 36f on the outer diameter side from the first inner diameter side coil bar 34i (inner diameter end 38i). The notch 36g formed at the right end of the second right inner divided plate 42 forms another through hole (36f) in cooperation with the adjacent first right inner divided plate 36.

  In the second right inner coil assembly 32, the outer diameter end 38 o of the first inner connection coil 38 is exposed on the outer diameter side outer surface side (upper surface in the drawing) of the second right inner divided plate 42.

<3-3. Third right inner coil assembly>
As shown in FIG. 4C, the third right inner coil assembly 33 includes an inner plate portion 36a, a first inner connection coil 38, and a first inner diameter side coil bar 34i from the first right inner coil assembly 31 (see FIG. 4A). Is a deleted shape. Specifically, the third right inner coil assembly 33 includes a third right inner coil unit 45 having the same shape as the outer plate portion 36b, and a first outer diameter side coil bar 34o. The third right inner coil unit 45 includes a third right inner divided plate 46 and a first outer connecting coil 37 inserted in a coil groove 36d formed on the outer surface side (upper surface in the drawing) of the third right inner divided plate 46. And comprising. In other words, the third right inner divided plate 46 extends on a plane on which the first outer connecting coil 37 is arranged. One end of a first outer diameter side coil bar 34 o is connected to the inner diameter end 37 i of the first outer connection coil 37.

  The third right inner coil assembly 33 further has an outer diameter end 37o (not shown in FIG. 4C) of the first outer connecting coil 37 on the outer diameter side inner surface side (lower surface in the drawing) of the third right inner divided plate 46. Is exposed.

  The second right inner coil assembly 32 and the third right inner coil assembly 33 are arranged such that when the third right inner coil assembly 33 is arranged on the second right inner coil assembly 32, the first right inner coil assembly 32 and the third right inner coil assembly 33 are arranged. The outer diameter end 38o of the first inner connection coil 38 exposed from the second right inner coil assembly 32 and the first outer connection coil 37 exposed from the third right inner coil assembly 33 are the same shape as the coil assembly 31. Are connected to the outer diameter end 37o.

<4. Right outer base plate assembly>
As shown in FIG. 5, the right outer base plate assembly 50 includes eleven first right outer coil assemblies 51, one second right outer coil assembly 52, and one third right outer coil assembly. A right-hand base plate assembly 30 assembled to the stator core 20 and laminated on the right side in the axial direction.

<4-1. First Right Outer Coil Assembly>
The first right outer coil assembly 51 includes a second coil bar 54 and a first right outer coil unit 55 as shown in FIG. 6A.

  Each of the second coil bars 54 includes a plurality of (six in the embodiment shown in the drawings) second outer diameter side coil bars 54o and second inner diameter side coil bars 54i. The length of the second outer diameter side coil bar 54o is also determined with reference to FIGS. 15 and 16 as well. The second outer connecting coil 57 and the left outer base plate are disposed outside the right outer base plate assembly 50 through the stator core 20. The length is set to connect between the second outer connecting coils 57 arranged outside the assembly 80. The length of the second inner diameter side coil bar 54 i extends through the stator core 20, and the second inner connection coil 58 disposed inside the right outer base plate assembly 50 and the second inner coil disposed inside the left outer base plate assembly 80. The length is set to connect the inner connection coils 58. The second outer diameter side coil bar 54o and the second inner diameter side coil bar 54i are insulated by being coated with an insulating material such as an injection-molded resin around both ends.

  The first right outer coil unit 55 includes a first right outer split plate 56, a plurality of (six in the embodiment shown in the figure) second outer connecting coils 57, and a plurality (six in the embodiment shown in the figure). A second inner connection coil 58.

  The first right outer divided plate 56 includes an inner plate portion 56a formed in a substantially parallelogram plate shape that is tilted clockwise, and an outer plate formed in a substantially parallelogram plate shape that is turned counterclockwise. Part 56b, and a part of the inner side plate part 56a and a part of the outer side plate part 56b are overlapped and formed integrally. Specifically, a substantially triangular region surrounded by A, B, and C of the inner plate portion 56a shown in FIG. 6A and a substantially triangular region surrounded by A ′, B ′, and C ′ of the outer plate portion 56b. These regions are integrally formed in a state where they are overlapped with each other.

  Therefore, in the region excluding the overlapping portion of the inner plate portion 56a and the outer plate portion 56b, a space corresponding to the plate thickness of the inner plate portion 56a is formed on the inner surface side (lower surface side in the drawing) of the outer plate portion 56b. A space corresponding to the plate thickness of the outer plate portion 56b is formed on the outer surface side of the inner plate portion 56a.

  On the inner surface side (the lower surface in the figure) of the inner plate portion 56a, a plurality (six) of substantially U-shaped coil grooves 56c that open to the inner surface extend in the clockwise direction when viewed from the outside in the axial direction. It is formed in close proximity along an involute curve. In addition, on the outer surface side (upper surface in the figure) of the outer plate portion 56b, a plurality (six) of substantially U-shaped coil grooves 56d opened on the outer surface are defined as coil grooves 56c as viewed from the outside in the axial direction. They are formed close to each other along an involute curve extending in the reverse direction (counterclockwise). That is, the coil groove 56c and the coil groove 56d are formed so as to intersect with each other at different plane positions.

  A second inner connection coil 58 is inserted into the coil groove 56c, and a second outer connection coil 57 is inserted into the coil groove 56d. In other words, the inner plate portion 56a extends on a plane on which the second inner connection coil 58 is disposed, and the outer plate portion 56b extends on a plane on which the second outer connection coil 57 is disposed. Referring to FIG. 12, when the right outer base plate assembly 50 is assembled in an annular shape on the right side in the axial direction of the right inner base plate assembly 30, the outer diameter end 57o of the second outer connecting coil 57 and the second inner The outer diameter end 58o of the connection coil 58 is disposed on the same circumference centering on the center O of the right outer base plate assembly 50 (stator core 20).

  Each of the second inner connecting coils 58 is an extension of a straight line L connecting the inner diameter end 58i and the other third inner diameter end 58i in the clockwise direction from the inner diameter end 58i and the center O of the right outer base plate assembly 50. It extends to the outer diameter end 58o located at the position. Further, the second outer connecting coil 57 is an extension of a straight line L connecting the inner diameter end 57i and the third other inner diameter end 57i counterclockwise from the inner diameter end 57i and the center O of the right outer base plate assembly 50. It extends to the outer diameter end 57o located on the line. That is, the inner diameter end 58i of the second inner connection coil 58 and the inner diameter end 57i of the second outer connection coil 57 that are separated by six in the circumferential direction are respectively the third outer diameter end 58o and the clockwise direction and the counterclockwise direction. It is electrically connected inside the first right outer divided plate 56 via the outer diameter end 57o.

  The radial length of the second inner connection coil 58 is set longer than the radial length of the second outer connection coil 57, and the inner diameter end 58 i of the second inner connection coil 58 is the inner diameter of the second outer connection coil 57. Extending radially inward from the end 57i. In connection with this, the inner side plate part 36a is also extended in the inner diameter side rather than the outer side plate part 36b. Referring also to FIGS. 15 and 16, one end of the second inner diameter side coil bar 54 i is connected to the inner diameter end 58 i of each second inner connection coil 58. Further, one end of the second outer diameter side coil bar 54o is connected to the inner diameter end 57i of the second outer connecting coil 57, respectively.

  The second outer connection coil 57 and the second inner connection coil except that the outer diameter end 58o of the predetermined second inner connection coil 58 and the outer diameter end 57o of the second outer connection coil 57 are electrically connected. 58, the second outer connecting coils 57, and the second inner connecting coils 58 are isolated and insulated by the partition wall 56e of the first right outer dividing plate 56. Further, a plurality (five in the figure) of through holes 56f are formed in the inner plate portion 56a on the outer diameter side of the second inner diameter side coil bar 54i (inner diameter end 58i).

  The through hole 56f is a hole for inserting the second outer diameter side coil bar 54o of the adjacent first right outer coil assembly 51, and is insulated from the second inner connection coil 58 by the partition wall 56e. In other words, the second inner connecting coil 58 is bent to avoid the second outer diameter side coil bar 54o (the inner diameter end 57i of the second outer connecting coil 57) (see FIG. 12). The notch portion 56g formed at the end portion of the inner plate portion 56a has a first adjacent first right outer divided plate 56 and an adjacent first right outer divided plate 56 in an annular shape. Another through hole (56f) is formed in cooperation with the right outer divided plate 56.

<4-2. Second Right Outer Coil Assembly>
As shown in FIG. 6B, the second right outer coil assembly 52 is formed from the first right outer coil assembly 51 (see FIG. 6A) by the outer plate portion 56b, the second outer connecting coil 57, and the second outer diameter side coil bar. 54o is a deleted shape. Specifically, the second right outer coil assembly 52 includes a second right outer coil unit 61 having the same shape as the inner plate portion 56a, and a second inner diameter side coil bar 54i. The second right outer coil unit 61 includes a second right outer divided plate 62 and a second inner connecting coil 58 inserted into a coil groove 56c formed on the inner surface side (lower surface in the drawing) of the second right outer divided plate 62. With. In other words, the second right outer divided plate 62 extends on a plane on which the second inner connecting coil 58 is disposed. The inner diameter end 58i of the second inner connection coil 58 is connected to one end of the second inner diameter side coil bar 54i.

  The second right outer divided plate 62 is formed with a plurality of (five in the figure) through holes 56f on the outer diameter side from the inner diameter end 58i of the second inner diameter side coil bar 54i. The notch 56g formed at the end of the second right outer divided plate 62 forms another through hole (56f) in cooperation with the adjacent first right outer divided plate 56.

  In the second right outer coil assembly 52, the outer diameter end 58 o of the second inner connection coil 58 is exposed on the outer diameter side outer surface side (upper surface in the drawing) of the second right outer divided plate 62.

<4-3. Third right outer coil assembly>
As shown in FIG. 6C, the third right outer coil assembly 53 includes an inner plate portion 56a, a second inner connection coil 58, and a second inner diameter side coil bar 54i from the first right outer coil assembly 51 (see FIG. 6A). Is a deleted shape. Specifically, the third right outer coil assembly 53 includes a third right outer coil unit 65 having the same shape as the outer plate portion 56b, and a second outer diameter side coil bar 54o. The third right outer coil unit 65 includes a third right outer divided plate 66 and a second outer connecting coil 57 inserted into a coil groove 56d formed on the outer surface side (upper surface in the drawing) of the third right outer divided plate 66. And comprising. In other words, the third right outer divided plate 66 extends on a plane on which the second outer connecting coil 57 is arranged. One end of a second outer diameter side coil bar 54o is connected to the inner diameter end 57i of the second outer connection coil 57, respectively.

  The third right outer coil assembly 53 further has an outer diameter end 57o (not shown in FIG. 6C) of the second outer connecting coil 57 on the outer diameter side inner surface side (lower surface in the drawing) of the third right outer divided plate 66. Is exposed.

  The second right outer coil assembly 52 and the third right outer coil assembly 53 are arranged such that when the third right outer coil assembly 53 is arranged on the second right outer coil assembly 52, the first right outer coil assembly 53 is arranged. The outer shape end 58o of the second inner connection coil 58 exposed from the second right outer coil assembly 52 and the second outer connection coil 57 exposed from the third right outer coil assembly 53 have the same shape as the coil assembly 51. Are connected to the outer diameter end 57o.

<5. Left inner base plate assembly>
As shown in FIG. 7, the left inner base plate assembly 70 includes seven first left inner coil units 71, one second left inner coil unit 72, and one third left inner coil unit 73. One fourth left inner coil unit 74, and arranged in an annular shape on the left side in the axial direction of the stator core 20.

<5-1. First left inner coil unit>
As shown in FIG. 8A, the first left inner coil unit 71 includes a first left inner dividing plate 75, a plurality of (six in the embodiment shown in the figure) first outer connecting coils 37, and a plurality of (in the figure). 6 in the embodiment shown) and a first inner connection coil 38.

  The first left inner divided plate 75 has substantially the same shape as the first right inner divided plate 36 shown in FIG. 4A, and is an inner plate formed in a substantially parallelogram-like plate shape that is tilted counterclockwise. Part 75a and an outer plate part 75b formed in a substantially parallelogram-like plate shape that falls clockwise, and a part of the inner plate part 75a and a part of the outer plate part 75b are overlapped. Are integrally formed. Specifically, a substantially triangular region surrounded by A, B, and C of the inner plate portion 75a shown in FIG. 8A and a substantially triangular region surrounded by A ′, B ′, and C ′ of the outer plate portion 75b. These regions are integrally formed in a state where they are overlapped with each other.

  Therefore, in the region excluding the overlapping portion of the inner plate portion 75a and the outer plate portion 75b, a space corresponding to the plate thickness of the inner plate portion 75a is formed on the inner surface side (lower surface side in the drawing) of the outer plate portion 75b. A space corresponding to the plate thickness of the outer plate 75b is formed on the outer surface side of the inner plate 75a.

  On the inner surface side (lower surface in the drawing) of the inner plate portion 75a, a plurality (six) of substantially U-shaped coil grooves 75c that open to the inner surface are counterclockwise when viewed from the outside in the axial direction. It is formed along an extending involute curve. In addition, on the outer surface side (upper surface in the figure) of the outer plate portion 75b, a plurality (six) of substantially U-shaped coil grooves 75d opened on the outer surface are defined as coil grooves 75c as viewed from the outside in the axial direction. It is formed along an involute curve extending in the reverse direction (clockwise). That is, the coil groove 75c and the coil groove 75d are formed so as to intersect at different planes in the axial direction position.

  The first inner connecting coil 38 is inserted into the coil groove 75c, and the first outer connecting coil 37 is inserted into the coil groove 75d. In other words, the inner plate portion 75a extends on a plane on which the first inner connection coil 38 is disposed, and the outer plate portion 75b extends on a plane on which the first outer connection coil 37 is disposed. An insertion hole 75f through which the first outer diameter side coil bar 34o is inserted is formed through the inner diameter side of the inner plate portion 75a. Further, the inner diameter end 38i of the first inner connection coil 38 is exposed on the inner diameter side of the insertion hole 75f. Further, on the inner diameter side of the outer plate portion 75b, the inner diameter end 37i of the first outer connection coil 37 is exposed at the same radial position as the insertion hole 75f of the inner plate portion 75a.

  The positional relationship and connection relationship between the first outer connecting coil 37 and the first inner connecting coil 38 arranged on the first left inner dividing plate 75 is the same as the first right inner dividing plate 36 described in FIG. Since the positional relationship and connection relationship between the first outer connecting coil 37 and the first inner connecting coil 38 are the same, detailed description thereof is omitted. The first outer connecting coil 37, the first inner connecting coil 38, the first outer connecting coils 37, and the first inner connecting coils 38 are insulated by a partition wall 75 e of the first left inner dividing plate 75.

<5-2. Second left inner coil unit>
As shown in FIG. 8B, the second left inner coil unit 72 has a shape in which the outer plate portion 75b and the first outer connecting coil 37 are deleted from the first left inner divided plate 75 (see FIG. 8A). Specifically, the second left inner coil unit 72 is formed on the second left inner divided plate 76 having the same shape as the inner plate 75a and on the inner surface side (lower surface in the drawing) of the second left inner divided plate 76. A plurality of (six) first inner connection coils 38 inserted into six coil grooves 75c. In other words, the second left inner dividing plate 76 extends on a plane on which the first inner connecting coil 38 is disposed.

  The outer diameter end 38o of the first inner connection coil 38 is exposed on the outer diameter side outer surface (upper surface in the drawing) of the second left inner coil unit 72, respectively. An insertion hole 75f through which the first outer diameter side coil bar 34o is inserted is formed on the inner diameter side of the second left inner divided plate 76, and an inner diameter end 38i of the first inner connection coil 38 is further formed on the inner diameter side thereof. Is exposed.

<5-3. Third left inner coil unit>
As shown in FIG. 8C, the third left inner coil unit 73 has a shape in which the inner plate portion 75a and the first inner connection coil 38 are deleted from the first left inner divided plate 75 (see FIG. 8A). Specifically, it is inserted into a third left inner divided plate 77 having the same shape as the outer plate portion 75b and six coil grooves 75d formed on the outer surface side (upper surface in the drawing) of the third left inner divided plate 77. And a plurality of (six) first outer connecting coils 37. In other words, the third left inner divided plate 77 extends on a plane on which the first outer connecting coil 37 is arranged.

  The outer diameter end 37o of the first outer connection coil 37 is exposed at the outer diameter side inner surface (lower surface in the drawing) of the third left inner coil unit 73, respectively. Further, the inner diameter end 37 i of the first outer connecting coil 37 is exposed on the inner diameter side of the third left inner divided plate 77.

  The second left inner coil unit 72 and the third left inner coil unit 73 are arranged together with the first left inner coil unit 71 when the third left inner coil unit 73 is overlaid on the second left inner coil unit 72. The outer diameter end 38o of the first inner connection coil 38 exposed from the second left inner coil unit 72 and the outer diameter end 37o of the first outer connection coil 37 exposed from the third left inner coil unit 73 have the same shape. Connected.

<5-4. Fourth left inner coil unit>
As shown in FIG. 8D, the fourth left inner coil unit 74 includes a fourth left inner divided plate 78, a plurality of first outer connecting coils 37, and a plurality of first inner connecting coils 38. The fourth left inner divided plate 78 has a shape in which roughly four first left inner divided plates 75 are continuously arranged in the circumferential direction, and is formed in a substantially parallelogram-like plate shape that is tilted counterclockwise. An inner plate portion 78a, and an outer plate portion 78b formed in a substantially parallelogram-like plate shape that is tilted clockwise, and a part of the inner plate portion 78a and a portion of the outer plate portion 78b. Are superimposed and formed integrally. Specifically, as shown in FIG. 8D, a substantially trapezoidal region surrounded by A, B, C, and D of the inner plate portion 78a and A ′, B ′, C ′, and D ′ of the outer plate portion 78b. Are formed integrally with a substantially trapezoidal region surrounded by. Hereinafter, a region where the inner plate portion 78a and the outer plate portion 78b overlap is referred to as an overlapping portion.

  Therefore, in the region excluding the overlapping portion of the inner plate portion 78a and the outer plate portion 78b, a space corresponding to the plate thickness of the inner plate portion 78a is formed on the inner surface side (lower surface side in the drawing) of the outer plate portion 78b. A space corresponding to the plate thickness of the outer plate 78b is formed on the outer surface side of the inner plate 78a.

  On the inner surface side (lower surface in the figure) of the inner plate portion 78a, a plurality of substantially U-shaped coil grooves 75c that open to the inner surface have an involute curve that extends counterclockwise when viewed from the outside in the axial direction. Are formed along. Further, on the outer surface side (upper surface in the drawing) of the outer plate portion 78b, a plurality of substantially U-shaped coil grooves 75d that open to the outer surface are in a direction opposite to the coil groove 75c (clockwise) as viewed from the outside in the axial direction. It is formed along an involute curve extending in the direction). That is, the coil groove 75c and the coil groove 75d are formed so as to intersect at different planes in the axial direction position.

  The first inner connecting coil 38 is inserted into the coil groove 75c, and the first outer connecting coil 37 is inserted into the coil groove 75d. An insertion hole 75f through which the first outer diameter side coil bar 34o is inserted is formed on the inner diameter side of the inner plate portion 78a. Further, the inner diameter end 38i of the first inner connection coil 38 is exposed on the inner diameter side of the insertion hole 75f. Further, the inner diameter end 37i of the first outer connecting coil 37 is exposed on the inner diameter side of the outer plate portion 78b at the same radial position as the insertion hole 75f of the inner plate portion 78a. In the overlapping portion, the inner diameter end 37i of the first outer connecting coil 37 is exposed at a predetermined interval so as to be continuous in the circumferential direction from the insertion hole 75f formed in the inner plate portion 78a, and on the inner diameter side of the inner diameter end 37i. The inner diameter end 38i of the first inner connection coil 38 is exposed at a predetermined interval so as to continue in the circumferential direction from the inner diameter end 38i of the first inner connection coil 38 provided on the inner plate portion 78a. Further, in the example shown in the drawing, the fourth left inner coil unit 74 is provided with bus bars 92U, 92V, and 92W for connecting coils having the same phase.

<6. Left outer base plate assembly>
As shown in FIG. 9, the left outer base plate assembly 80 includes seven first left outer coil units 81, one second left outer coil unit 82, and one third left outer coil unit 83. One fourth left outer coil unit 84, and is arranged in an annular shape on the left side in the axial direction of the left inner base plate assembly 70.

<6-1. First left outer coil unit>
As shown in FIG. 10A, the first left outer coil unit 81 includes a first left outer dividing plate 85, a plurality of (six in the embodiment shown in the figure) second outer connecting coils 57, and a plurality of (in the figure). 6 in the embodiment shown) and a second inner connection coil 58.

  The first left outer divided plate 85 has substantially the same shape as the first right outer divided plate 56 shown in FIG. 6A, and is formed in a substantially parallelogram-like plate shape that is tilted clockwise in the drawing. The inner plate 85a, and an outer plate 85b formed in a substantially parallelogram-like plate shape that has fallen counterclockwise, a part of the inner plate 85a, a part of the outer plate 85b, Are superimposed and formed integrally. Specifically, a substantially triangular region surrounded by A, B, and C of the inner plate portion 85a shown in FIG. 10A and a substantially triangular region surrounded by A ′, B ′, and C ′ of the outer plate portion 85b. These regions are integrally formed in a state where they are overlapped with each other.

  Therefore, in the region excluding the overlapping portion of the inner plate portion 85a and the outer plate portion 85b, a space corresponding to the plate thickness of the inner plate portion 85a is formed on the inner surface side (lower surface side in the drawing) of the outer plate portion 85b. On the outer surface side (upper surface side in the figure) of the inner plate portion 85a, a space corresponding to the plate thickness of the outer plate portion 85b is formed.

  On the inner surface side (lower surface in the figure) of the inner plate portion 85a, a plurality (six) of substantially U-shaped coil grooves 85c that open to the inner surface extend in the clockwise direction when viewed from the outside in the axial direction. It is formed along an involute curve. In addition, on the outer surface side (upper surface in the figure) of the outer plate 85b, a plurality (six) of substantially U-shaped coil grooves 85d opened on the outer surface are defined as coil grooves 85c as viewed from the outside in the axial direction. It is formed along an involute curve extending in the reverse direction (counterclockwise). That is, the coil groove 85c and the coil groove 85d are formed so as to intersect at different planes in the axial position.

  The second inner connecting coil 58 is inserted into the coil groove 85c, and the second outer connecting coil 57 is inserted into the coil groove 85d. In other words, the inner plate portion 85a extends on a plane on which the second inner connection coil 58 is disposed, and the outer plate portion 85b extends on a plane on which the second outer connection coil 57 is disposed. An insertion hole 85f through which the second outer diameter side coil bar 54o is inserted is formed on the inner diameter side of the inner plate portion 85a. Further, the inner diameter end 58i of the second inner connection coil 58 is exposed on the inner diameter side of the insertion hole 85f. Further, the inner diameter end 57i of the second outer connecting coil 57 is exposed on the inner diameter side of the outer plate portion 85b at the same radial position as the insertion hole 85f of the inner plate portion 85a. When the left outer base plate assembly 80 is assembled to the stator core 20 to which the right inner base plate assembly 30 and the right outer base plate assembly 50 are assembled, the inner diameter end 58i of the second inner connection coil 58 is connected to the second inner diameter side coil bar 54i. And the second outer diameter side coil bar 54 o is connected to the inner diameter end 57 i of the second outer connection coil 57.

  The positional relationship and connection relationship between the second outer connecting coil 57 and the second inner connecting coil 58 arranged on the first left outer divided plate 85 is the same as that of the first right outer divided plate 56 described in FIG. Since it is the same as the positional relationship and connection relationship of the 2 outer side connection coil 57 and the 2nd inner side connection coil 58, detailed description is abbreviate | omitted. The second outer connecting coil 57 and the second inner connecting coil 58, the second outer connecting coils 57, and the second inner connecting coils 58 are insulated by the partition wall 85 e of the first left outer divided plate 85.

<6-2. Second left outer coil unit>
As shown in FIG. 10B, the second left outer coil unit 82 has a shape in which the outer plate portion 85b and the second outer connecting coil 57 are deleted from the first left outer divided plate 85 (see FIG. 10A). Specifically, the second left outer coil unit 82 is formed on the second left outer divided plate 86 having the same shape as the inner plate portion 85a and on the inner surface side (lower surface in the drawing) of the second left outer divided plate 86. And a plurality of (six) second inner connection coils 58 inserted into the six coil grooves 85c. In other words, the second left outer divided plate 86 extends on a plane on which the second inner connecting coil 58 is disposed.

  The outer diameter end 58o of the second inner connection coil 58 is exposed on the outer diameter side outer surface (upper surface in the drawing) of the second left outer coil unit 82, respectively. An insertion hole 85f through which the second outer diameter side coil bar 54o is inserted is formed on the inner diameter side of the second left outer coil unit 82, and an inner diameter end 58i of the second inner connection coil 58 is further formed on the inner diameter side. Is exposed.

<6-3. Third left outer coil unit>
As shown in FIG. 10C, the third left outer coil unit 83 has a shape in which the inner plate portion 85a and the second inner connection coil 58 are deleted from the first left outer divided plate 85 (see FIG. 10A). Specifically, it is inserted into a third left outer divided plate 87 having the same shape as the outer plate 85b and six coil grooves 85d formed on the outer surface side (upper surface in the drawing) of the third left outer divided plate 87. And a plurality of (six) second outer connection coils 57. In other words, the third left outer divided plate 87 extends on a plane on which the second outer connecting coil 57 is arranged.

  The outer diameter end 57o of the second outer connection coil 57 is exposed at the outer diameter side inner surface (lower surface in the drawing) of the third left outer coil unit 83, respectively. Further, the inner diameter end 57 i of the second outer connecting coil 57 is exposed on the inner diameter side of the third left outer coil unit 83.

  The second left outer coil unit 82 and the third left outer coil unit 83 are arranged together with the first left outer coil unit 81 when the third left outer coil unit 83 is overlaid on the second left outer coil unit 82. The outer diameter end 58o of the second inner connection coil 58 exposed from the second left outer coil unit 82 and the outer diameter end 57o of the second outer connection coil 57 exposed from the third left outer coil unit 83 have the same shape. Connected.

<6-4. Fourth Left Outer Coil Unit>
As shown in FIG. 10D, the fourth left outer coil unit 84 includes a fourth left outer dividing plate 88, a plurality of second outer connecting coils 57, and a plurality of second inner connecting coils 58 (not shown in FIG. 10D). And comprising. The fourth left outer divided plate 88 has a shape in which approximately four first left outer divided plates 85 are continuously arranged in the circumferential direction, and is formed in a substantially parallelogram plate shape that falls clockwise. The inner plate portion 88a and the outer plate portion 88b formed in the shape of a substantially parallelogram that has been turned counterclockwise, a part of the inner plate portion 88a and a portion of the outer plate portion 88b. And are integrally formed. Specifically, a substantially trapezoidal region surrounded by A, B, C, and D of the inner plate portion 88a, and an abbreviation surrounded by A ′, B ′, C ′, and D ′ of the outer plate portion 88b. It is integrally formed with the trapezoidal region overlapped. Hereinafter, a region where the inner plate portion 88a and the outer plate portion 88b overlap is referred to as an overlapping portion.

  Therefore, in the region excluding the overlapping portion of the inner plate portion 88a and the outer plate portion 88b, a space corresponding to the plate thickness of the inner plate portion 88a is formed on the inner surface side (lower surface side in the drawing) of the outer plate portion 88b. A space corresponding to the plate thickness of the outer plate 88b is formed on the outer surface side of the inner plate 88a.

  A plurality of substantially U-shaped coil grooves 85c (not shown in FIG. 10D) that open to the inner surface are seen from the outer side in the axial direction on the inner surface side (lower surface in the drawing) of the inner plate portion 88a. It is formed along an involute curve extending in the direction. Further, on the outer surface side (upper surface in the drawing) of the outer plate 88b, a plurality of substantially U-shaped coil grooves 85d that open to the outer surface are in the opposite direction (reverse to the coil groove 85c when viewed from the outside in the axial direction). It is formed along an involute curve extending in the clockwise direction. That is, the coil groove 85c and the coil groove 85d are formed so as to intersect at different planes in the axial position.

  The second inner connecting coil 58 is inserted into the coil groove 85c, and the second outer connecting coil 57 is inserted into the coil groove 85d. An insertion hole 85f through which the second outer diameter side coil bar 54o is inserted is formed on the inner diameter side of the inner plate portion 88a. Further, the inner diameter end 58i of the second inner connecting coil 58 is exposed on the inner diameter side of the insertion hole 85f. Further, the inner diameter end 57i of the second outer connecting coil 57 is exposed on the inner diameter side of the outer plate portion 88b at the same radial position as the insertion hole 85f of the inner plate portion 88a. In the overlapping portion, the inner diameter end 57i of the second outer connecting coil 57 is exposed at a predetermined interval so as to be continuous in the circumferential direction from the insertion hole 85f formed in the inner plate portion 88a, and on the inner diameter side of the inner diameter end 57i. The inner diameter end 58i of the second inner connection coil 58 is exposed at a predetermined interval so as to continue in the circumferential direction from the inner diameter end 58i of the second inner connection coil 58 provided on the inner plate portion 88a. Further, in the example shown in the figure, the fourth left outer coil unit 84 includes a midpoint bus bar 89M for connecting the U, V, and W phase coils, and U, V, and W phase terminal portions 89U, 89V, and 89W. Is provided.

<7. Assembly>
<7-1. Assembly of the right inner base plate assembly>
Next, the assembly of the stator 10 will be described in detail. As shown in FIG. 3, first, the right inner base plate assembly 30 is assembled on the right side in the axial direction of the stator core 20. The right inner base plate assembly 30 is assembled in the clockwise direction in the order of the second right inner coil assembly 32, the first right inner coil assembly 31, and the third right inner coil assembly 33.

  Specifically, the six first inner diameter side coil bars 34i of the second right inner coil assembly 32 are inserted into the slot 21 of the stator core 20 (second position from the outer diameter side of the slot 21), and the second right inner side The division plate 42 is brought into contact with the right side surface of the stator core 20. Next, the first right inner coil assembly 31 is arranged in the clockwise direction next to the second right inner coil assembly 32, and the six first outer diameter side coil bars 34 o are passed through the second right inner coil assembly 32. It is inserted into the hole 36f, inserted into the slot 21 of the stator core 20 (the outermost diameter position of the slot 21), and the six first inner diameter side coil bars 34i are inserted into the slot 21 of the stator core 20, The outer plate portion 36 b of the first right inner coil assembly 31 is placed on the coil assembly 32 so as to overlap.

  Thereafter, similarly, the remaining ten first right inner coil assemblies 31 are inserted into the through holes 36f of the first right inner coil assembly 31 adjacent to the first outer diameter side coil bar 34o in the counterclockwise direction. The 1 inner diameter side coil bar 34i is inserted into the slot 21 of the stator core 20 and assembled sequentially.

  Finally, the first outer diameter side coil bar 34o of the third right inner coil assembly 33 is inserted into the through hole 36f of the first right inner coil assembly 31 assembled last, and the second right inner coil assembly. The outer diameter end 38o of the first inner connection coil 38 of the second right inner coil assembly 32 and the outer diameter end 37o of the first outer connection coil 37 of the third right inner coil assembly 33 are superposed on each other. , Connect. The connection between the outer diameter end 38o of the first inner connection coil 38 and the outer diameter end 37o of the first outer connection coil 37 of the third right inner coil assembly 33 is preferably joined by welding or caulking. The same applies to the connection coils, the connection between the coil bar and the connection coil, which will be described later.

  Accordingly, the right inner base plate assembly 30 is annularly arranged on the right side in the axial direction of the stator core 20.

<7-2. Assembly of the right outer base plate assembly>
Next, as shown in FIG. 5, the right outer base plate assembly 50 is assembled on the right side in the axial direction of the right inner base plate assembly 30. The right outer base plate assembly 50 is assembled in the order of the second right outer coil assembly 52, the first right outer coil assembly 51, and the third right outer coil assembly 53 in the counterclockwise direction.

  Specifically, first, the six second inner diameter side coil bars 54 i of the second right outer coil assembly 52 are inserted into the slots 21 (the innermost diameter position of the slots 21) of the stator core 20, and the second right outer divided plate 62 is inserted. Is brought into contact with the right side surface of the right inner base plate assembly 30. Next, the first right outer coil assembly 51 is arranged counterclockwise next to the second right outer coil assembly 52, and the six second outer diameter side coil bars 54 o are connected to the second right outer coil assembly 52. It is inserted into the through hole 56f and inserted into the slot 21 of the stator core 20 (second position from the innermost side of the slot 21), and the six second inner diameter side coil bars 54i are inserted into the slot 21 of the stator core 20 (the innermost slot 21). The outer plate portion 56b of the first right outer coil assembly 51 is placed on the second right outer coil assembly 52 so as to overlap.

  Thereafter, similarly, the remaining ten first right outer coil assemblies 51 are inserted into the through holes 56f of the first right outer coil assembly 51 adjacent to the second outer diameter side coil bar 54o in the clockwise direction, and the second The inner diameter side coil bar 54i is inserted into the slot 21 of the stator core 20 and assembled sequentially.

  Finally, the second outer diameter side coil bar 54o of the third right outer coil assembly 53 is inserted into the through hole 56f of the first right outer coil assembly 51 assembled last, and the second right outer coil assembly. 52, the outer diameter end 58o of the second inner connection coil 58 of the second right outer coil assembly 52, and the outer diameter end 57o of the second outer connection coil 57 of the third right outer coil assembly 53. , Connect.

  Accordingly, the right outer base plate assembly 50 is annularly arranged on the right side in the axial direction of the right inner base plate assembly 30.

  FIGS. 13 and 14 are a right side perspective view and a left side perspective view in which the right inner base plate assembly 30 and the right outer base plate assembly 50 are assembled to the stator core 20, respectively, 72 from the left side surface of the stator core 20. The first outer diameter side coil bar 34o, the first inner diameter side coil bar 34i, the second outer diameter side coil bar 54o, and the second inner diameter side coil bar 54i protrude in order from the outer diameter side.

<7-3. Assembly of left inner base plate assembly>
Next, as shown in FIG. 7, the left inner base plate assembly 70 is assembled to the left side in the axial direction of the stator core 20. The left inner base plate assembly 70 is assembled in the clockwise direction in the order of the second left inner coil unit 72, the fourth left inner coil unit 74, the first left inner coil unit 71, and the third left inner coil unit 73.

  Specifically, first, the other ends of the six first outer diameter side coil bars 34o protruding from the left side surface of the stator core 20 are caused to penetrate through the insertion hole 75f of the second left inner coil unit 72, and The other end of the first inner diameter side coil bar 34 i is connected to the inner diameter end 38 i of the first inner connection coil 38 exposed in the second left inner coil unit 72.

  Then, the fourth left inner coil unit 74 is arranged next to the second left inner coil unit 72 in the clockwise direction, and a plurality of the fourth left inner coil units 74 are in contact with the inner diameter end 37 i of the first outer connecting coil 37 of the fourth left inner coil unit 74. The other end of the first outer diameter side coil bar 34o is connected to the inner diameter end 37i of the first outer connection coil 37, and the first inner diameter side coil bar 34i protruding from the left side surface of the stator core 20 is connected to the fourth left inner coil. The unit 74 is connected to the inner diameter end 38 i of the first inner connection coil 38 exposed in the unit 74.

  Next, the seven first left inner coil units 71 are sequentially arranged adjacent to each other in the clockwise direction, and the other six first outer diameter side coil bars 34o protruding from the insertion holes 75f of the units positioned in the counterclockwise direction. While connecting the end to the inner diameter end 37i of the first outer connecting coil 37, the other end of the six first outer diameter side coil bars 34o protruding from the left side surface of the stator core 20 is inserted into the insertion hole 75f and protruded. The other end of the first inner diameter side coil bar 34 i is connected to the inner diameter end 38 i of the first inner connection coil 38.

  Finally, the third left inner coil unit 73 is disposed, the other end of the first outer diameter side coil bar 34o protruding from the insertion hole 75f of the first left inner coil unit 71 assembled last, and the third left inner The coil unit 73 is connected to the inner diameter end 37 i of the first outer connection coil 37 exposed in the coil unit 73. Then, the third left inner coil unit 73 is overlaid on the second left inner coil unit 72, and the outer diameter end 38o of the first inner connection coil 38 of the second left inner coil unit 72 and the third left inner coil. The outer diameter end 37 o of the first outer connecting coil 37 of the unit 73 is connected.

  Accordingly, the left inner base plate assembly 70 is annularly arranged on the left side in the axial direction of the stator core 20.

<7-4. Assembly of left outer base plate assembly>
Next, as shown in FIG. 9, the left outer base plate assembly 80 is assembled to the left side in the axial direction of the left inner base plate assembly 70. The left outer base plate assembly 80 is assembled counterclockwise in the order of the second left outer coil unit 82, the fourth left outer coil unit 84, the first left outer coil unit 81, and the third left outer coil unit 83.

  Specifically, first, the second left outer coil unit 82 is disposed at a predetermined position so as to overlap the left inner base plate assembly 70, and the left side surface of the stator core 20 is inserted into the insertion hole 85 f of the second left outer coil unit 82. The other end of the six second outer diameter side coil bars 54o protruding from the second outer side coil bar 54o is projected through the second left outer coil unit 82 and the other end of the six second inner diameter side coil bars 54i is exposed. The inner connection end 58 i of the inner connection coil 58 is connected.

  The fourth left outer coil unit 84 is arranged next to the second left outer coil unit 82 in the counterclockwise direction. At this time, the circumferential phases of the fourth left inner coil unit 74 and the fourth left outer coil unit 84 coincide. Then, the other ends of the plurality of second outer diameter side coil bars 54o contacting the inner diameter ends 57i of the second outer connection coil 57 of the fourth left outer coil unit 84 are respectively connected to the inner diameter ends 57i of the second outer connection coil 57. The second inner diameter side coil bar 54 i protruding from the left side surface of the stator core 20 is connected to the inner diameter end 58 i of the second inner connection coil 58 exposed in the fourth left outer coil unit 84.

  Next, the seven first left outer coil units 81 are sequentially arranged adjacently in the counterclockwise direction, and other than the six second outer diameter side coil bars 54o protruding from the insertion holes 85f of the units positioned in the clockwise direction. The end is connected to the inner diameter end 57i of the second outer connecting coil 57, and the other ends of the six second outer diameter side coil bars 54o protruding from the left side surface of the stator core 20 are inserted into the insertion holes 85f and protruded. However, the other end of the second inner diameter side coil bar 54 i is connected to the inner diameter end 58 i of the second inner connection coil 58.

  Finally, the third left outer coil unit 83 is arranged, the other end of the second outer diameter side coil bar 54o protruding from the insertion hole 85f of the first left outer coil unit 81 assembled last, and the third left outer The coil unit 83 is connected to the inner diameter end 57 i of the second outer connecting coil 57 exposed in the coil unit 83. Then, the third left outer coil unit 83 is overlaid on the second left outer coil unit 82, and the outer diameter end 58o of the second inner connecting coil 58 of the second left outer coil unit 82 and the third left outer coil. The outer diameter end 57 o of the second outer connecting coil 57 of the unit 83 is connected.

  Accordingly, the left outer base plate assembly 80 is annularly arranged on the left side in the axial direction of the left inner base plate assembly 70.

  Thus, the right inner base plate assembly 30 and the right outer base plate assembly 50 are assembled on the right side in the axial direction of the stator core 20, and the left inner base plate assembly 70 and the left outer base plate assembly 80 are further mounted on the left side in the axial direction of the stator core 20. When assembled, as shown in FIGS. 15 and 16, the pair of left and right first inner connecting coils 38 are connected by a first inner diameter side coil bar 34 i, and the pair of left and right first outer connecting coils 37 are connected to each other. The outer diameter side coil bar 34o is connected. Also, the pair of left and right second inner connection coils 58 are connected by a second inner diameter side coil bar 54i, and the pair of left and right second outer connection coils 57 are connected by a second outer diameter side coil bar 54o to form a coil 90. Is formed. In addition, the 1st coil bar 34 and the 2nd coil bar 54 which are arrange | positioned at the same slot 21 comprise the same phases, such as a U phase, for example, and an electric current flows into the same direction. Although a detailed description of the connection mode of the coil 90 is omitted, the coil 90 includes U-phase, V-phase, and W-phase coil loops, and a three-phase coil loop is star-connected by a midpoint bus bar 89M.

  As described above, according to the stator 10 of the rotating electrical machine according to the present embodiment, the coil 90 is between the first coil bars 34 inserted into the slot 21 and the first coil bars 34 on the axially outer side of the stator core 20. A plurality of first outer connecting coils 37 and first inner connecting coils 38 are connected. The first outer connecting coil 37 and the first inner connecting coil 38 are arranged so as to intersect with each other at different planes in the axial direction, and a left inner base plate assembly 70 is provided on the outer side in the axial direction of the stator core 20. The left inner base plate assembly 70 includes a plurality of first left inner coil units 71 in which a first inner connecting coil 38 and a first outer connecting coil 37 are integrated with a first left inner dividing plate 75, and first inner connecting coils. 38, a second left inner coil unit 72 integrated with a second left inner dividing plate 76 extending on a plane on which the first inner connecting coil 38 is disposed, and a first outer connecting coil 37, And a third left inner coil unit 73 integrated with a third left inner divided plate 77 extending on a plane on which the first outer connecting coil 37 is disposed.

  As described above, the left inner base plate assembly 70 includes the plurality of first left inner coil units 71, the second left inner coil unit 72, and the third left inner coil unit 73. Compared to the case of molding at a stretch, it can be easily manufactured without requiring a large-scale manufacturing facility. Further, when the plurality of first left inner coil units 71 are arranged in the circumferential direction, when the last first left inner coil unit 71 is arranged, it interferes with the first left inner coil unit 71 arranged first. Although the last first left inner coil unit 71 cannot be assembled, the second left inner coil unit 72 extended on the plane on which the first inner connecting coil 38 is arranged is replaced with the first left inner coil unit 71. The left inner base plate assembly 70 can be easily assembled by disposing the third left inner coil unit 73 disposed earlier and finally extending on the plane on which the first outer connecting coil 37 is disposed. it can.

  Further, not only the left inner base plate assembly 70 but also the right inner base plate assembly 30 is similarly configured by the first right inner coil unit 35, the second right inner coil unit 41, and the third right inner divided plate 46. Thus, the base plate assembly can be provided on both sides of the stator core 20 in the axial direction, and the stator 10 of the rotating electrical machine can be easily manufactured while sharing the components.

  In the right inner base plate assembly 30, since the first coil bar 34 is integrated with the first right inner coil unit 35, the first outer connection coil 37, the first inner connection coil 38, the first coil bar 34, Thus, the connection process after the assembly is not required, and the stator 10 of the rotating electrical machine can be manufactured more easily. The right outer base plate assembly 50 and the left outer base plate assembly 80 may be omitted. When the right outer base plate assembly 50 and the left outer base plate assembly 80 are provided, the right outer base plate assembly 50 is provided as in the above embodiment. By configuring the base plate assembly 50 in the same manner as the right inner base plate assembly 30 and configuring the left outer base plate assembly 80 in the same manner as the left inner base plate assembly 70, the stator 10 of the rotating electrical machine can be easily manufactured. it can.

  Further, taking the left inner base plate assembly 70 as an example, the first inner connecting coil 38 is inserted into the coil groove 75c, and the first outer connecting coil 37 is inserted into the coil groove 75d. By flowing along the coil grooves 75c and 75d, the first inner connecting coil 38 and the first outer connecting coil 37 can be effectively cooled, and a decrease in performance of the rotating electrical machine due to an increase in coil temperature can be suppressed.

In addition, this invention is not limited to embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably.
For example, the right inner base plate assembly 30 will be described as an example. In the above embodiment, the second right inner coil assembly 32 and the third right inner coil assembly 33 are disposed between one adjacent first right inner coil assembly 31. For example, the second right inner coil assembly 32 and the third right inner coil assembly 33 are respectively disposed between two adjacent first right inner coil assemblies 31 (for example, at a position of 180 °). The second right inner coil assembly 32 and the third right inner coil assembly 33 may be disposed between three or more adjacent first right inner coil assemblies 31, respectively. The same applies to the right outer base plate assembly 50, the left inner base plate assembly 70, and the left outer base plate assembly 80.

10 Stator 20 Stator Core 21 Slot 30 Right Inner Base Plate Assembly (Base Plate Assembly)
34 First coil bar (slot coil)
35 First right inner coil unit (first coil unit)
36 1st right inner division plate (1st division plate)
36c, 56c, 75c, 85c Coil groove (inner groove)
36d, 56d, 75d, 85d Coil groove (outer groove)
37 First outer connection coil (connection coil)
38 1st inside connection coil (connection coil)
41 Second right inner coil unit (second coil unit)
42 Second right inner split plate (second split plate)
45 3rd right inner coil unit (3rd coil unit)
46 3rd right inner division plate (3rd division plate)
50 Right outer base plate assembly (base plate assembly)
54 Second coil bar (slot coil)
55 First right outer coil unit (first coil unit)
56 First right outer divided plate (first divided plate)
57 Second outer connection coil (connection coil)
58 Second inner connection coil (connection coil)
61 Second right outer coil unit (second coil unit)
62 Second right outer divided plate (second divided plate)
65 Third right outer coil unit (third coil unit)
66 Third right outer divided plate (third divided plate)
70 Left inner base plate assembly (base plate assembly)
71 First left inner coil unit (first coil unit)
72 Second left inner coil unit (second coil unit)
73 Third left inner coil unit (third coil unit)
75 First left inner divided plate (first divided plate)
76 Second left inner divided plate (second divided plate)
77 Third left inner divided plate (third divided plate)
80 Left outer base plate assembly (base plate assembly)
81 First left outer coil unit (first coil unit)
82 Second left outer coil unit (second coil unit)
83 Third left outer coil unit (third coil unit)
85 First left outer divided plate (first divided plate)
86 Second left outer divided plate (second divided plate)
87 Third left outer divided plate (third divided plate)

Claims (5)

A stator core having a plurality of slots;
A stator for a rotating electrical machine comprising a coil attached to the stator core,
The coil includes a plurality of slot coils inserted into the slots, and a plurality of connection coils that connect the slot coils on the axially outer side from the axial end surface of the stator core,
The connection coil has an inner connection coil and an outer connection coil arranged so as to intersect with each other in planes having different axial positions,
A base plate assembly is provided at least on one axial end side of the stator core,
The base plate assembly is
A plurality of first coil units in which the inner connection coil and the outer connection coil are integrated with a first divided plate, and arranged adjacent to each other so that adjacent first divided plates overlap in the axial direction;
A second coil unit provided between at least one adjacent first coil units, and the inner connecting coil integrated with a second divided plate extending on a plane on which the inner connecting coil is disposed; ,
A third coil unit provided between at least one adjacent first coil units, and the outer connecting coil integrated with a third divided plate extending on a plane on which the outer connecting coil is disposed; A stator for a rotating electrical machine. A stator for a rotating electrical machine according to claim 1,
A stator of a rotating electrical machine, wherein a shape obtained by combining the second divided plate and the third divided plate is substantially the same shape as the first divided plate. A stator for a rotating electrical machine according to claim 1 or 2,
The base plate assembly is a stator of a rotating electrical machine provided on both axial sides of the stator core. A stator for a rotating electrical machine according to claim 3,
A stator of a rotating electrical machine in which the slot coil is integrated with the first to third coil units of the base plate assembly provided on the other axial end side of the stator core. A stator for a rotating electrical machine according to any one of claims 1 to 4,
In the first divided plate, an outer groove is formed so that the outer connection coil is exposed on the outer surface, and an inner groove is formed so that the inner connection coil is exposed on the inner surface.
In the second divided plate, an inner groove is formed so that the inner connection coil is exposed on the inner surface,
A stator of a rotating electrical machine, wherein an outer groove is formed in the third divided plate so that the outer connection coil is exposed on an outer surface.

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